Aerospace Materials and Applications.

Name: Aerospace Materials and Applications.
ISBN: 9781624104893

Bhat, Biliyar N.

Aerospace Materials and Applications.

Bhat, Biliyar N.

2018

TL953

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Title

Aerospace Materials and Applications.

Author

Bhat, Biliyar N.

Edition

1st ed.

ISBN

9781624104893
9781624104886

Published

Reston : American Institute of Aeronautics & Astronautics, 2018.

Copyright

Language

English

Description

1 online resource (845 pages).

Call Number

TL953

Dewey Decimal Classification

629.472

Summary

Aerospace Materials and Applications addresses materials selection and use in aircraft, spacecraft, launch vehicles, and propulsion systems and power systems. Advances in aerospace systems are strongly dependent on advances in materials and processing technologies. In the past hundred years of powered flight aircraft structures have evolved around advances in materials that are lighter and stronger. Aircraft propulsion systems are constantly striving to become more fuel efficient via reductions in mass and improved capability for materials to operate at higher temperatures for longer periods. Gas turbine engines that power modern aircraft are being designed to run at higher pressures and temperatures to generate more thrust per pound of engine mass. Similar considerations apply to rocket engines where the power densities are much higher. Spacecraft are designed to operate in the harsh radiation environments of outer space. In-space propulsion and power systems are key components of spacecraft and advanced materials enable these systems. Hence it is important for aerospace systems designers to have a good understanding of how specific materials will perform in their systems. Aerospace Materials and Applications clearly shows the preferred approach to selecting materials given the unique requirements for design and construction of aerospace systems.

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Series

Progress in Astronautics and Aeronautics Ser.

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Aerospace Materials and Applications

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Cover
Half Title
Title Page
Copyright Page
Table of Contents
Preface
Chapter 1: Introduction
Chapter 2: Aerospace Materials Characteristics
2.1 INTRODUCTION
2.2 ALUMINUM ALLOYS
2.3 TITANIUM ALLOYS
2.4 STEELS
2.5 SUPERALLOYS
2.6 COPPER ALLOYS
2.7 DAMAGE TOLERANCE CONSIDERATIONS FOR METALLIC MATERIALS
2.8 HYDROGEN EMBRITTLEMENT IN METALLIC MATERIALS
2.9 MATERIAL BEHAVIOR IN OXYGEN-RICH ENVIRONMENTS
2.10 POLYMERS AND COMPOSITES
2.11 POLYMER MATRIX COMPOSITES IN AEROSPACE STRUCTURES
2.12 AEROSPACE CERAMIC MATERIALS
ACKNOWLEDGEMENTS
REFERENCES
Chapter 3: Materials Selection for Aerospace Systems
3.1 INTRODUCTION
3.2 SYSTEMATIC APPROACH TO MATERIALS SELECTION
3.3 ADVANCED SELECTION
3.4 DATA ISSUES
3.5 SUMMARY
REFERENCES
Chapter 4: Advanced Nanoengineered Materials
4.1 INTRODUCTION
4.2 NANOENGINEERED STRUCTURAL MATERIALS
4.3 NANOENGINEERED MULTIFUNCTIONAL MATERIALS
4.4 PROCESSING AND MANUFACTURING
4.5 MODELING OF NANOMATERIALS: MULTISCALE AND MULTITECHNIQUE
4.6 FUTURE TRENDS
ACKNOWLEDGMENTS
REFERENCES
Chapter 5: Subsonic Aircraft Materials Development
5.1 INTRODUCTION
5.2 SUBSONIC AND SUPERSONIC FIXED WING AIRCRAFT
5.3 ROTORCRAFT
5.4 ENABLING MATERIALS, STRUCTURES, AND MANUFACTURING PROCESSES
5.5 CLOSING COMMENTS
ACKNOWLEDGEMENTS
REFERENCES
Chapter 6: Materials for Spacecraft
6.1 INTRODUCTION
6.2 SPACE ENVIRONMENT
6.3 SPACECRAFT DESIGN AND MATERIALS REQUIREMENTS
6.4 FLAMMABILITY, TOXICITY, AND OFFGASSING CONSIDERATIONS
6.5 STRUCTURAL MATERIALS
6.6 THERMAL CONTROL MATERIALS
6.7 THERMAL PROTECTION MATERIALS
6.8 RADIATION SHIELDING
6.9 METEOROID/ORBITAL DEBRIS SHIELDING
6.10 OPTICAL MATERIALS
6.11 SOLAR ARRAY MATERIALS
6.12 LUBRICANTS
6.13 SEAL MATERIALS
6.14 ADHESIVES.

6.15 LESSONS LEARNED
6.16 CONCLUDING REMARKS
ACKNOWLEDGMENTS
REFERENCES
Chapter 7: Materials for Launch Vehicle Structures
7.1 INTRODUCTION
7.2 LAUNCH VEHICLE STRUCTURES
7.3 BASIC MATERIAL CHARACTERISTICS
7.4 STRUCTURAL DESIGN AND REQUIREMENTS
7.5 PRESSURIZED STRUCTURE
7.6 FEEDLINES, SMALL LINES, AND PRESSURE VESSELS
7.7 UNPRESSURIZED STRUCTURE
7.8 THERMAL PROTECTION AND INSULATION
7.9 MANUFACTURING CONSIDERATIONS
7.10 SUMMARY, TRENDS, AND OUTLOOK
REFERENCES
Chapter 8: Materials for Exploration Systems
8.1 INTRODUCTION
8.2 DEVELOPMENT OF A TECHNICAL BASIS FOR MATERIALS PROCESSING IN SPACE
8.3 DEVELOPMENT OF AN ECONOMIC BASIS FOR MATERIALS PROCESSING IN SPACE: IN SITU PROPELLANT PRODUCTION
8.4 SUMMARY AND CONCLUSIONS
REFERENCES
Chapter 9: Thermal Protection Systems and Hot Structures for Hypersonic Vehicles
9.1 INTRODUCTION
9.2 BACKGROUND
9.3 TPS AND HOT STRUCTURE COMPONENTS
9.4 KEY TECHNICAL CHALLENGES
9.5 CONCLUDING REMARKS
ACKNOWLEDGMENTS
REFERENCES
Chapter 10: Aero Engine Materials
10.1 INTRODUCTION
10.2 BRIEF HISTORICAL PERSPECTIVE ON AIRCRAFT ENGINE EVOLUTION
10.3 EVOLUTION OF JET ENGINE MATERIALS
10.4 MATERIALS PROCESSING
10.5 TRENDS AND OUTLOOK
10.6 SUMMARY
BIBLIOGRAPHY
Chapter 11: Materials for Solid Rocket Engines
11.1 INTRODUCTION
11.2 SOLID ROCKET COMPONENTS
11.3 MOTOR CASES
11.4 INSULATION MATERIALS
11.5 LINER AND INHIBITOR
11.6 NOZZLE
11.7 IGNITERS
11.8 HYBRID ROCKET PROPULSION SYSTEMS
11.9 SUMMARY, TRENDS, AND OUTLOOK
BIBLIOGRAPHY
Chapter 12: Materials for Liquid Propulsion Systems
12.1 INTRODUCTION
12.2 LIQUID ROCKET ENGINES
12.3 GENERAL DESIGN CONSIDERATIONS FOR MATERIALS SELECTION
12.4 MATERIALS
12.5 THRUST CHAMBER MATERIALS
12.6 TURBOPUMP MATERIALS
12.7 VALVES.

12.8 LINES AND DUCTS
12.9 SUMMARY
REFERENCES
Chapter 13: Advanced Materials for In-Space Propulsion
13.1 INTRODUCTION
13.2 CHEMICAL PROPULSION (LIQUID STORABLE AND LIQUID CRYOGENIC)
13.3 GRIDDED ION THRUSTERS
13.4 HALL PROPULSION SYSTEMS
13.5 SOLAR THERMAL PROPULSION
13.6 NUCLEAR THERMAL PROPULSION
13.7 SOLAR SAIL PROPULSION
13.8 TETHER PROPULSION
13.9 ADVANCED PROPULSION TECHNOLOGIES
13.10 SUMMARY
REFERENCES
Chapter 14: Materials for Power Systems in Space Exploration
14.1 INTRODUCTION
14.2 SOLAR
14.3 FUEL CELLS
14.4 BATTERIES
14.5 RADIOISOTOPE POWER SYSTEMS
14.6 FISSION POWER FOR SPACE
14.7 CONCLUDING REMARKS
REFERENCES
Index
Supporting Materials.

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